Program to estimate the Differential value of the function using Euler Method

``` # include <iostream.h>
# include   <stdlib.h>
# include   <string.h>
# include    <stdio.h>
# include    <conio.h>
# include     <math.h>

const int max_size=13;

int n=0;
int top=-1;

long double h=0;
long double x=0;
long double x0=0;
long double y0=0;

long double xn[max_size]={0};
long double yn[max_size]={0};

char Fx[100]={NULL};
char Stack[30][30]={NULL};
char Postfix_expression[30][30]={NULL};

//------------------------  Funcion Prototypes  -------------------------//

void push(const char *);
void convert_ie_to_pe(const char *);

const char* pop( );
const long double evaluate_pe(const long double,const long double);

void show_screen( );
void clear_screen( );
void get_input( );
void apply_euler_method( );
void show_result( );

//------------------------------  main( )  ------------------------------//

int main( )
{
clrscr( );
textmode(C4350);

show_screen( );
get_input( );
apply_euler_method( );
show_result( );

getch( );
return 0;
}

//------------------------  Funcion Definitions  ------------------------//

//--------------------------  show_screen( )  ---------------------------//

void show_screen( )
{
cprintf(\"\\n********************************************************************************\");
cprintf(\"*******************************-                -*******************************\");
cprintf(\"*------------------------------- \");

textbackground(1);
cprintf(\" Euler Method \");
textbackground(8);

cprintf(\" -------------------------------*\");
cprintf(\"*-*****************************-                -*****************************-*\");
cprintf(\"*-****************************************************************************-*\");

for(int count=0;count<42;count++)
cprintf(\"*-*                                                                          *-*\");

gotoxy(1,46);
cprintf(\"*-****************************************************************************-*\");
cprintf(\"*------------------------------------------------------------------------------*\");
cprintf(\"********************************************************************************\");

gotoxy(1,2);
}

//-------------------------  clear_screen( )  ---------------------------//

void clear_screen( )
{
for(int count=0;count<37;count++)
{
gotoxy(5,8+count);
cout<<\"                                                                        \";
}

gotoxy(1,2);
}

//--------------------------  push(const char*)  ------------------------//

void push(const char* Operand)
{
if(top==(max_size-1))
{
cout<<\"Error : Stack is full.\"<<endl;
cout<<\"\\n        Press any key to exit.\";

getch( );
exit(0);
}

else
{
top++;
strcpy(Stack[top],Operand);
}
}

//------------------------------  pop( )  -------------------------------//

const char* pop( )
{
char Operand[40]={NULL};

if(top==-1)
{
cout<<\"Error : Stack is empty.\"<<endl;
cout<<\"\\n        Press any key to exit.\";

getch( );
exit(0);
}

else
{
strcpy(Operand,Stack[top]);
strset(Stack[top],NULL);
top--;
}

return Operand;
}

//--------------------  convert_ie_to_pe(const char*)  ------------------//

void convert_ie_to_pe(const char* Expression)
{
char Infix_expression[100]={NULL};
char Symbol_scanned[30]={NULL};

push(\"(\");
strcpy(Infix_expression,Expression);
strcat(Infix_expression,\"+0)\");

int flag=0;
int count_1=0;
int count_2=0;
int equation_length=strlen(Infix_expression);

if(Infix_expression[0]==\'(\')
flag=1;

do
{
strset(Symbol_scanned,NULL);

if(flag==0)
{
int count_3=0;

do
{
Symbol_scanned[count_3]=Infix_expression[count_1];

count_1++;
count_3++;
}
while(count_1<=equation_length &&
Infix_expression[count_1]!=\'(\' &&
Infix_expression[count_1]!=\'+\' &&
Infix_expression[count_1]!=\'-\' &&
Infix_expression[count_1]!=\'*\' &&
Infix_expression[count_1]!=\'/\' &&
Infix_expression[count_1]!=\'^\' &&
Infix_expression[count_1]!=\')\');

flag=1;
}

else if(flag==1)
{
Symbol_scanned[0]=Infix_expression[count_1];

count_1++;

if(Infix_expression[count_1]!=\'(\' &&
Infix_expression[count_1]!=\'^\' &&
Infix_expression[count_1]!=\'*\' &&
Infix_expression[count_1]!=\'/\' &&
Infix_expression[count_1]!=\'+\' &&
Infix_expression[count_1]!=\'-\' &&
Infix_expression[count_1]!=\')\')
flag=0;

if(Infix_expression[count_1-1]==\'(\' &&
(Infix_expression[count_1]==\'-\' ||
Infix_expression[count_1]==\'+\'))
flag=0;
}

if(strcmp(Symbol_scanned,\"(\")==0)
push(\"(\");

else if(strcmp(Symbol_scanned,\")\")==0)
{
while(strcmp(Stack[top],\"(\")!=0)
{
strcpy(Postfix_expression[count_2],pop( ));

count_2++;
}

pop( );
}

else if(strcmp(Symbol_scanned,\"^\")==0 ||
strcmp(Symbol_scanned,\"+\")==0 ||
strcmp(Symbol_scanned,\"-\")==0 ||
strcmp(Symbol_scanned,\"*\")==0 ||
strcmp(Symbol_scanned,\"/\")==0)
{
if(strcmp(Symbol_scanned,\"^\")==0)
{  }

else if(strcmp(Symbol_scanned,\"*\")==0 ||
strcmp(Symbol_scanned,\"/\")==0)
{
while(strcmp(Stack[top],\"^\")==0 ||
strcmp(Stack[top],\"*\")==0 ||
strcmp(Stack[top],\"/\")==0)
{
strcpy(Postfix_expression[count_2],pop( ));

count_2++;
}
}

else if(strcmp(Symbol_scanned,\"+\")==0 ||
strcmp(Symbol_scanned,\"-\")==0)
{
while(strcmp(Stack[top],\"(\")!=0)
{
strcpy(Postfix_expression[count_2],pop( ));

count_2++;
}
}

push(Symbol_scanned);
}

else
{
strcat(Postfix_expression[count_2],Symbol_scanned);

count_2++;
}
}
while(strcmp(Stack[top],NULL)!=0);

strcat(Postfix_expression[count_2],\"=\");
count_2++;
}

//--------  evaluate_pe(const long double,const long double)  -----------//

const long double evaluate_pe(const long double x,const long double y)
{
long double function_value=0;

int count_1=-1;

char Symbol_scanned[30]={NULL};

do
{
count_1++;

strcpy(Symbol_scanned,Postfix_expression[count_1]);

if(strcmp(Symbol_scanned,\"^\")==0 ||
strcmp(Symbol_scanned,\"*\")==0 ||
strcmp(Symbol_scanned,\"/\")==0 ||
strcmp(Symbol_scanned,\"+\")==0 ||
strcmp(Symbol_scanned,\"-\")==0)

{
char Result[30]={NULL};
char Operand[2][30]={NULL};

strcpy(Operand[0],pop( ));
strcpy(Operand[1],pop( ));

long double operand[2]={0};
long double result=0;

char *endptr;

for(int count_2=0;count_2<2;count_2++)
{
int flag=0;

if(Operand[count_2][0]==\'-\')
{
int length=strlen(Operand[count_2]);

for(int count_3=0;count_3<(length-1);count_3++)
Operand[count_2][count_3]=Operand[count_2][(count_3+1)];

Operand[count_2][count_3]=NULL;

flag=1;
}

if(strcmp(Operand[count_2],\"x\")==0)
operand[count_2]=x;

else if(strcmp(Operand[count_2],\"y\")==0)
operand[count_2]=y;

else if(strcmp(Operand[count_2],\"e\")==0)
operand[count_2]=2.718282;

else if(strcmp(Operand[count_2],\"sinx\")==0)
operand[count_2]=sinl(x);

else if(strcmp(Operand[count_2],\"cosx\")==0)
operand[count_2]=cosl(x);

else if(strcmp(Operand[count_2],\"tanx\")==0)
operand[count_2]=tanl(x);

else if(strcmp(Operand[count_2],\"lnx\")==0)
operand[count_2]=logl(x);

else if(strcmp(Operand[count_2],\"logx\")==0)
operand[count_2]=log10l(x);

else if(strcmp(Operand[count_2],\"siny\")==0)
operand[count_2]=sinl(y);

else if(strcmp(Operand[count_2],\"cosy\")==0)
operand[count_2]=cosl(y);

else if(strcmp(Operand[count_2],\"tany\")==0)
operand[count_2]=tanl(y);

else if(strcmp(Operand[count_2],\"lny\")==0)
operand[count_2]=logl(y);

else if(strcmp(Operand[count_2],\"logy\")==0)
operand[count_2]=log10l(y);

else
operand[count_2]=strtod(Operand[count_2],&endptr);

if(flag)
operand[count_2]*=-1;
}

switch(Symbol_scanned[0])
{
case \'^\' : result=powl(operand[1],operand[0]);
break;

case \'*\' : result=operand[1]*operand[0];
break;

case \'/\' : result=operand[1]/operand[0];
break;

case \'+\' : result=operand[1]+operand[0];
break;

case \'-\' : result=operand[1]-operand[0];
break;
}

gcvt(result,25,Result);

push(Result);
}

else if(strcmp(Symbol_scanned,\"=\")!=0)
push(Symbol_scanned);
}
while(strcmp(Symbol_scanned,\"=\")!=0);

char Function_value[30]={NULL};
char *endptr;

strcpy(Function_value,pop( ));
function_value=strtod(Function_value,&endptr);

return function_value;
}

//-----------------------------  get_input( )  --------------------------//

void get_input( )
{
gotoxy(6,10);
cout<<\"Input :\";

gotoxy(6,11);
cout<<\"ÍÍÍÍÍÍÍ\";

gotoxy(6,37);
cout<<\"Note : Write the function with proper Braces ( ) e.g; 2x+3 as (2*x)+3\";

gotoxy(6,40);
cout<<\"Available Operators  :  ^ (raised to power) , * , / , + , -\";

gotoxy(6,42);
cout<<\"Available Operands   :  x , e , sinx , cosx , tanx , lnx , logx ,\";

gotoxy(6,44);
cout<<\"                        any number and all above functions with y.\";

gotoxy(6,14);
cout<<\"Enter the Function : f(x,y) = \";

cin>>Fx;

convert_ie_to_pe(Fx);

gotoxy(6,17);
cout<<\"Enter the value of xn = \";

cin>>x;

gotoxy(6,19);
cout<<\"Enter the value of x0 = \";

cin>>x0;

gotoxy(6,21);
cout<<\"Enter the value of y0 = \";

cin>>y0;

gotoxy(6,23);
cout<<\"Enter the value of h = \";

cin>>h;
}

//------------------------  apply_euler_method( )  ----------------------//

void apply_euler_method( )
{
clear_screen( );

gotoxy(6,9);
cout<<\"Solution :\";

gotoxy(6,10);
cout<<\"ÍÍÍÍÍÍÍÍÍÍ\";

gotoxy(25,12);
cout<<\"ÚÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÂÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄ¿\";

gotoxy(25,13);
cout<<\"³       x       ³      y        ³\";

gotoxy(25,14);
cout<<\"ÃÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄ\";

gotoxy(25,15);
cout<<\"³               ³               ³\";

xn[0]=x0;
yn[0]=y0;

do
{
xn[(n+1)]=(xn[n]+h);
n++;
}
while(xn[n]<x);

for(int count_1=0;count_1<=n;count_1++)
{
gotoxy(25,(wherey( )+1));
cout<<\"³               ³               ³\";

gotoxy(25,(wherey( )+1));
cout<<\"³               ³               ³\";
}

gotoxy(25,(wherey( )+1));
cout<<\"ÀÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÙ\";

gotoxy(25,16);

for(int count_2=0;count_2<=n;count_2++)
{
gotoxy(27,wherey( ));
cout<<xn[count_2];

gotoxy(43,wherey( ));
cout<<yn[count_2];

yn[(count_2+1)]=(yn[count_2]+(h*evaluate_pe(xn[count_2],yn[count_2])));

gotoxy(25,(wherey( )+2));
}

gotoxy(25,43);
cout<<\"Press any key to continue...\";

getch( );
}

//---------------------------  show_result( )  --------------------------//

void show_result( )
{
clear_screen( );

gotoxy(6,9);
cout<<\"Euler Method :\";

gotoxy(6,10);
cout<<\"ÍÍÍÍÍÍÍÍÍÍÍÍÍÍ\";

gotoxy(10,12);
cout<<\"y(n+1) = yn + [ h * f(xn,yn) ]   ,  for n=0,1,2,3,...\";

gotoxy(6,17);
cout<<\"Estimated Value :\";

gotoxy(6,18);
cout<<\"ÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍ\";

gotoxy(8,20);
cout<<\"Estimated differential value = \"<<yn[n];

gotoxy(1,2);
}
```

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